Bringing the Human Health Dimension into Interdisciplinary Marine Research Fleming LE, Austen M, Cheung V, Creencia L, Eales J, Garside R, Jack-Kadioglu T, Madarcos K, Morrissey K, Pahl S, Richter I, White M, Voronkova A University of Exeter Medical School, Plymouth Marine Laboratory, University of Plymouth [UK], Western Philippines University [Philippines]
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Bringing the Human Health Dimension into
Interdisciplinary Marine Research
Fleming LE, Austen M, Cheung V, Creencia L, Eales J, Garside R, Jack-Kadioglu T, Madarcos K, Morrissey K, Pahl S, Richter I,
White M, Voronkova A University of Exeter Medical School, Plymouth Marine Laboratory, University of Plymouth [UK],
Western Philippines University [Philippines]
Ocean & Human Health: A rather negative focus
RISKS
Microbial pollutionStorms, Floods &
Climate Change
Fisheries DestructionHABs & Other Toxins
Man-made Chemicals
Ocean & Human Health: Rather a Positive focus
Benefits
Marine Models
Seafood & Aquaculture
Marine Natural ProductsModelling & Forecast
Health and Wellbeing
EU Blue Growth Strategy
Blue energy
Aquaculture
Maritime tourism
Marine mineral resources
Marine biotechnology
Goal to reach 7 million jobs by 2020 with 5 Sectors
Environmental Sustainability+
Risks, Benefits and Opportunitiesto
Human Health & Wellbeing?
Dr Will Stahl-Timmins
Prof Michael Depledge
Coast & health: Main pathways
< Stress
> Exercise
> Social
> Environ.
?
Multi-method approach
Method Pros (inc.) Cons (inc.) Our studies
Qualitative interviews
In-depth understand of people’s motives & beliefs
Unrepresentative samples - Parent interviews- Child interviews
Visitor surveys Big numbers /Multiple environments (controls)Voluntary/chosen
Memory biases, selectioneffects
- MENE (N = 280,000)- Wembury surveys- Surfing / sailing studies
Where people live Representative samplesSome longitudinal data
Causality?Multiple confounders
- Census (N = 48 million)- BHPS (N =12,000 x 18 yrs)
Field experiments Realistic exposure condition some control
Hard to randomise/blind to condition
- Marine Aquarium- Dental surgeries- Volunteering studies
Imaging (fMRI) Observation of brain activity using blood flow proxy
Risk of Type 1 errors, temporal snap-shots
- Urban/green/blue images- Matched liking sets
Lab experiments Reduced confounds & selection effects. Increased understanding of underlying processes (e.g. physiologic)
Small Ns (convenience samples); non-ecologicale.g. may miss synergistic effects
- Videos/photos/sounds- Attention processes- Delay of gratification- Risk taking- Pain
Systematic reviews
Better overview; Meta-analyse data
Exclusion of important studies; Non-weighting of quality criterion
- Attention Restoration- Biodiversity- Nature volunteering
A B C
All 3 rooms are identical (2-3 star, size, furniture, en-suite,
price) except view from the balcony
£47.96£72.85£60.81
Choosing a hotel room…….
Mean Willingness to Pay (per night)
White et al., 2010, J Environ Psych
The effects are strongest
in poorer communities a
aWheeler, White, Stahl-Timmins & Depledge (2012). Health & Place, 18, 1198-1201; bWhite, Alcock, Wheeler & Depledge (2013). Health & Place, 23, 97-103
Self-Reported Health Census Data (England, n = 48 million)
Census Data & Health
Error bars:
95% CI
0
0.2
0.4
0.6
0.8
1
1.2
1.4
<1km 1-6km 6-20km 20-50km >50km
Age
sta
nd
ard
ise
d%
of
po
pu
lati
on
wit
h "
goo
d
he
alth
"
Home distance to coast
ref
<1km 3 million
1-6km 8 million
Same pattern when people
move home b
Controlling for area:
income, education,
unemployment & crime
Activity Energy expenditure at the coastline of England
Elliott, White, Taylor,, & Herbert. (2015). Energy expenditure on recreational visits to natural environments. Social Science & Medicine.
* Log-transformed MET minutes (metabolic equivalents of task x duration of leisure visit).
Coasts are associated with the highest energy expenditure via
recreational physical activity.
Applied field work
White, Hignett & Pahl (2012). Surf to Success Outcomes: Can Learning to Surf Promote Individual and Environmental Well-Being? Project
Report
for Ecominds.
*
**
*
Vulnerable Communities
Basic Experimental
Paradigm
Stressors
T1
Mood
Physio.
T2
Mood
Physio.
Green
Space
Blue
Space
Grey
Space
Lab work: Applied Settings & Different Populations
Dental surgeries (+ VR)(Films, Sounds, +
During Exercise)
White, Pahl, et al
Stress Reduction @ National Marine Aquarium
Condition 1: Nothing! (“No fish”; n = 29)
(water and tank decoration - no fish or invertebrates)
Condition 2: Small number of fish (“Low” biodiversity; n = 26)
(2-10 fish species; 45-80 individuals)
Condition 3: Additional number of fish (“Medium” biodiversity; n = 29)
(Total of 19 fish species; 138 individuals (9 additional species, 58 extra fish))
Thick-lipped grey mullet (Chelon
labrosus)
Flounder (Platichthys flesus)
Thornback ray (Raja clavata)
Cracknell, White, Pahl, Nichols & Depledge (Under revision). Species diversity and psychological well-being: A preliminary examination of
dose-response effects in an aquarium setting
-8
-7
-6
-5
-4
-3
-2
-1
0
No bio Low bio Mod bio
HR
co
mp
ared
to
po
st
stre
sso
r b
ase
line
5mins+
10mins+
Visitor observation data
Behavioural & Heart Rate data
• Participant heart rate
– Significant drop in all
conditions:
• Mod>Low>No
– No dose-response
pattern for time spent
n = 40
Mood data
-1.5
-1.0
-0.5
0.0
0.5
1.0
1.5
-1.5 -1.0 -0.5 0.0 0.5 1.0 1.5
Excited/energisedTense/angry
Calm/contentSad/depressed No biodiversity
Low biodiversity
High biodiversity
High arousal
Low
arousal
Negative
feelings
Positive feelings
Marine Litter
a Wyles, K. J., Pahl, S., Thomas, K., & Thompson, R. C. (in press). Environment & Behavior
Impacts on the Environment and Human Wellbeing?
C
A B
D
Marine Litter Impacts
a Wyles, K. J., Pahl, S., Thomas, K., & Thompson, R. C. (in press). Environment & Behavior
Impacts on the Environment and Human Wellbeing
2
3
4
5
6
7
8
9
Clean
Seaweed
Fishing-litter
Public-litter
Ave
rage
Re
spo
nse
(on
a s
cale
fro
m 1
to
10
)
Preference Mood ArousalPerceived
Restoration
RCT Real Dental Care – 72 patients
Standard Care
Virtual Wembury
*
* p < .05
- Lab findings extend to real
situations (tooth
extractions/fillings)
Virtual City
0
0.5
1
1.5
2
2.5
3
3.5
Experienced Pain Recalled Pain
Pa
in
Standard Care City VR
*
Tanja-Dijkstra, Pahl, White, Andrade, May, Stone, Bruce, Mills, Melissa Auvrey, Gabe & Moles (2016). The soothing sea: A virtual walk on the coast reduces experienced and recollected pain. Pain
Coast & health: Main pathways
< Stress
> Exercise
> Social
> Environ.
ComplexMixtures?
BlueHealth is funded by the European Union’s Horizon 2020 researchand innovation programme, grant agreement No 666773
BlueHealth: Linking Up Environment, Health and Climate for Inter-Sector Health Promotion and Disease Prevention in a Rapidly Changing
Environment
Project overview
Lora Fleming (UNEXE)
We must shift from treatment
to prevention
And from a focus on longevity to
quality of life over the life course
Challenges to society
What are the big global issues?
• Health: Ageing, chronic diseases, inequalities
• Climate: Global change
• Environment: Other environmental change
• And the intersections between them,both risks and benefits
Conceptual model
Understanding the benefits of urban blue spaces
Population health and wellbeing
How do we maximise the positive impacts of urban
blue spaces?Activities in blue spaces
Physical, social, virtual
Contact with blue space
Indirect and direct interactions Climate and extreme events
How will natural processes change over
time?
Quantity and quality of blue space
How do we ensure the accessibility of these
spaces?
Urban planning and infrastructure
How do we design our cities?
International BlueHealth Survey
International BlueHealth Survey
UN sustainable development goals
How do blue spaces fit in?
GCRF Blue CommunitiesBuilding capability for Marine Planning in SE Asia: Actively, well-managed marine ecosystems are better able to support the health, wellbeing, food security and livelihoods of people
Co-Creation with Communities
Stakeholder workshop: Taytay
Some of Expertise in BlueHealth @ www.ECEHH.org
Dr Ben Wheeler
Prof Lora Fleming
Dr Lewis Elliott
Dr Mat White Dr James Grellier
Dr Tim Taylor
Dr Becca Lovell
Mr Alex Smalley
Prof Sabine Pahl
Ms Nicky Yeo Ms Em Squire
Ms Sophie Davison
Dr Claire Eatock
Prof Mike Depledge
and 774567
With thanks to my current and future Oceans & Human Health Colleagues, including: T Appleby, G Armbrust, M Austen, L Backer, D Baden, R Barciela, J Benson, E Berdalet, B Bowen, A Boxhall, J Brandão, R Caldwell, C Carlarne, Y Cheng, D Cracknell, K Davidson, M Depledge, J Doyle, S Dupont, W Elliot, S Elmir, H Enevoldsen, E Faustman, M Friedman, R Gabriel, T Galloway, W Gaze, MB Gidley, A Goksøyr, M Gribble, C Hadjichristodoulou, A Harvey, C Hattam, P Hess, P Hoagland,JHollenbeck, A Ianora, K Irvine, K Jakobsson, C Janssen, B Kirkpatrick, K Kohler, E Laws, E Lewis, J Lloret, L Madson, N McDonough, D McGillicuddy, J Mees, M Moore, S Moore, K Olden, A Ortiz, S Pahl, E Papathanasopoulou, B Reguera, A Reich, K Rein, D Rice, D Sarigiannis, SL Smith, G Nichols, F Regoli, C Sinigalliano, A Smalley, H Solo Gabriele, W Stephan, R Stumpf, N Taylor, T Taylor, R Thompson, M Thorndyke, V Trainer, F Tyson, S Vardoulakis, V Vasconcelos, P Walsh, S Warber, M White, K Wyles, N Young, H2020 BlueHealth Partnres, H2020 SOPHIE Partners, GCRF Blue Communities Partners
Thank You
SDG 14: Conserve and sustainably use the oceans, seas and marine resources for sustainable development
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